个人详细信息
洪友士

洪友士

博士 研究员
中国科学院力学研究所 非线性力学国家重点实验室
邮箱:hongys@imech.ac.cn
邮编:100190
地址:北京 北四环西路15号,中...
个人详细信息

研究成果

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[1] Sun CQ,Lei ZQ,Xie JJ,et al. Effects Of Inclusion Size And Stress Ratio On Fatigue Strength For High-strength Steels With Fish-eye Mode Failure[J]. International Journal Of Fatigue,2013,48:19-27.
浏览/下载:1036/323
[2] Long X,Ge F,Wang L,et al. Influences Of Structural Damping And Buoyancy-weight Ratio On Dynamic Responses Of Submerged Floating Tunnel[C]. The 5th Symposium On Strait Crossings.trondheim, Norway.june 21-24, 2009.2009.
浏览/下载:973/309
[3] Hong YS,Ge F,Long X. Researches On Essential Mechanics Issues For Submerged Floating Tunnel[C]. The 5th Symposium On Strait Crossings.trondheim, Norway.june 21-24, 2009.2009.
浏览/下载:958/289
[4] Ge F,Long X,Wang L,et al. Two-dimensional Vortex-induced Vibrations Of Submerged Floating Tunnel Tethers[C]. The 5th Symposium On Strait Crossings.trondheim, Norway.june 21-24, 2009.2009.
浏览/下载:861/234
[5] Wu XD,Ge F,Hong YS. A Review Of Recent Studies On Vortex-induced Vibrations Of Long Slender Cylinders[J]. Journal Of Fluids And Structures,2012,28:292-308.
浏览/下载:852/351
[6] Lu W,Ge F,Wu XD,et al. Nonlinear Dynamics Of A Submerged Floating Moored Structure By Incremental Harmonic Balance Method With Fft[J]. Marine Structures,2013,31:63-81.
浏览/下载:763/247
[7] Zhou CE,Qian GA,Hong YS. Fractography And Crack Initiation Of Very-high-cycle Fatigue For A High Carbon Low Alloy Steel[J]. Key Enginering Materials,2006,324-325:1113-1116.
浏览/下载:744/272
[8] Lu W,Ge F,Wang L,et al. On The Slack Phenomena And Snap Force In Tethers Of Submerged Floating Tunnels Under Wave Conditions[J]. Marine Structures,2011,24(4):358-376.
浏览/下载:740/199
[9] Long X,Ge F,Wang L,et al. Effects Of Fundamental Structure Parameters On Dynamic Responses Of Submerged Floating Tunnel Under Hydrodynamic Loads[J]. Acta Mechanica Sinica,2009:335-344.
浏览/下载:734/225
[10] Wu XL,Tao N,Hong YS,et al. Gamma -> Epsilon Martensite Transformation And Twinning Deformation In Fcc Cobalt During Surface Mechanical Attrition Treatment[J]. Scripta Materialia,2005,52(7):547-551.
浏览/下载:718/137
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研究主题

水中悬浮隧道[8] Very-high-cycle fatigue[7] 超高周疲劳[6] 激光熔覆[5] Mechanism[4] very-high-cycle fatigue[4] FGA[4] 疲劳短裂纹[4] Failure[4] 电子背散射衍射[4] 疲劳[3] 高强钢[3] “鱼眼[3] 铜[3] 裂纹数密度[3]

成果统计

合作作者[TOP 5]

 

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